Elastic solid dynamics in a coupled oscillatory Couette flow system

Tejaswin Parthasarathy; Yashraj Bhosale; Mattia Gazzola

doi:10.1017/jfm.2022.542

Elastic solid dynamics in a coupled oscillatory Couette flow system

Tejaswin Parthasarathy, Yashraj Bhosale, Mattia Gazzola

Research output: Contribution to journal › Article › peer-review

Abstract

We report analytical solutions of a problem involving a visco-elastic solid material layer sandwiched between two fluid layers, in turn confined by two long planar walls that undergo oscillatory motion. The resulting system dynamics is rationalized, based on fluid viscosity and solid elasticity, via wave and boundary layer theory. This allows for physical interpretation of elasto-hydrodynamic coupling, potentially connecting to a broad set of biophysical phenomena and applications, from synovial joint mechanics to elastometry. Further, obtained solutions are demonstrated to be rigorous benchmarks for testing coupled incompressible fluid-hyperelastic solid and multi-phase numerical solvers, towards which we highlight challenging parameter sets. Finally, we provide an interactive online sandbox to build physical intuition, and open-source our code-base.

Original language	English (US)
Article number	A15
Journal	Journal of Fluid Mechanics
Volume	946
DOIs	https://doi.org/10.1017/jfm.2022.542
State	Published - Sep 10 2022

Keywords

elastic waves
flow-structure interactions
general fluid mechanics

ASJC Scopus subject areas

Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering
Applied Mathematics

Online availability

10.1017/jfm.2022.542

Library availability

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Cite this

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title = "Elastic solid dynamics in a coupled oscillatory Couette flow system",

abstract = "We report analytical solutions of a problem involving a visco-elastic solid material layer sandwiched between two fluid layers, in turn confined by two long planar walls that undergo oscillatory motion. The resulting system dynamics is rationalized, based on fluid viscosity and solid elasticity, via wave and boundary layer theory. This allows for physical interpretation of elasto-hydrodynamic coupling, potentially connecting to a broad set of biophysical phenomena and applications, from synovial joint mechanics to elastometry. Further, obtained solutions are demonstrated to be rigorous benchmarks for testing coupled incompressible fluid-hyperelastic solid and multi-phase numerical solvers, towards which we highlight challenging parameter sets. Finally, we provide an interactive online sandbox to build physical intuition, and open-source our code-base.",

keywords = "elastic waves, flow-structure interactions, general fluid mechanics",

author = "Tejaswin Parthasarathy and Yashraj Bhosale and Mattia Gazzola",

note = "The authors acknowledge support by the National Science Foundation under NSF CAREER grant no. CBET-1846752 (M.G.).",

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doi = "10.1017/jfm.2022.542",

language = "English (US)",

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AU - Parthasarathy, Tejaswin

AU - Bhosale, Yashraj

AU - Gazzola, Mattia

N1 - The authors acknowledge support by the National Science Foundation under NSF CAREER grant no. CBET-1846752 (M.G.).

PY - 2022/9/10

Y1 - 2022/9/10

N2 - We report analytical solutions of a problem involving a visco-elastic solid material layer sandwiched between two fluid layers, in turn confined by two long planar walls that undergo oscillatory motion. The resulting system dynamics is rationalized, based on fluid viscosity and solid elasticity, via wave and boundary layer theory. This allows for physical interpretation of elasto-hydrodynamic coupling, potentially connecting to a broad set of biophysical phenomena and applications, from synovial joint mechanics to elastometry. Further, obtained solutions are demonstrated to be rigorous benchmarks for testing coupled incompressible fluid-hyperelastic solid and multi-phase numerical solvers, towards which we highlight challenging parameter sets. Finally, we provide an interactive online sandbox to build physical intuition, and open-source our code-base.

AB - We report analytical solutions of a problem involving a visco-elastic solid material layer sandwiched between two fluid layers, in turn confined by two long planar walls that undergo oscillatory motion. The resulting system dynamics is rationalized, based on fluid viscosity and solid elasticity, via wave and boundary layer theory. This allows for physical interpretation of elasto-hydrodynamic coupling, potentially connecting to a broad set of biophysical phenomena and applications, from synovial joint mechanics to elastometry. Further, obtained solutions are demonstrated to be rigorous benchmarks for testing coupled incompressible fluid-hyperelastic solid and multi-phase numerical solvers, towards which we highlight challenging parameter sets. Finally, we provide an interactive online sandbox to build physical intuition, and open-source our code-base.

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Elastic solid dynamics in a coupled oscillatory Couette flow system

Abstract

Keywords

ASJC Scopus subject areas

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